(D) Magnetic flux is defined as $\phi = B \cdot A$. From the Lorentz force law,$F = B I l$,we can write $B = \frac{F}{I l}$. The dimensions of force $

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(D) Magnetic flux is defined as $\phi = B \cdot A$. From the Lorentz force law,$F = B I l$,we can write $B = \frac{F}{I l}$. The dimensions of force $F$ are $[M L T^{-2}]$,current $I$ are $[A]$,and length $l$ is $[L]$. Thus,the dimensions of magnetic field $B$ are $\frac{[M L T^{-2}]}{[A][L]} = [M T^{-2} A^{-1}]$. Now,substituting this into the formula for magnetic flux: $\phi = [M T^{-2} A^{-1}] \cdot [L^2] = [M L^2 T^{-2} A^{-1}]$.

Class 12 Physics Electromagnetic Induction Magnetic Flux and Gauss law for Magnetism

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The dimensions of magnetic flux are

A
$ML{T^{ - 2}}\,{A^{ - 2}}$
B
$M{L^2}{T^{ - 2}}\,{A^{ - 2}}$
C
$M{L^2}{T^{ - 1}}\,{A^{ - 2}}$
D
$M{L^2}{T^{ - 2}}\,{A^{ - 1}}$

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Electromagnetic Induction

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Magnetic Flux and Gauss law for Magnetism

The magnetic flux linked with a closed coil is increased to a maximum value in $2 \,s$ and its relation with time is $\phi = at^2 + bt + c$. Then the relation between $a, b$ and $c$ is:

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Assertion $(A)$: Magnetic flux is a vector quantity.
Reason $(R)$: Value of magnetic flux can be positive, negative, or zero.

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$A$ flux of $1 \ mWb$ passes through a strip having an area $A = 0.02 \ m^2$. The plane of the strip is at an angle of $60^{\circ}$ to the direction of a uniform field $B$. The value of $B$ is

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Imagine rolling a sheet of paper into a cylinder and placing a bar magnet near its end as shown in the figure. What can you say about the sign of $\vec B \cdot d\vec A$ for every area element $d\vec A$ on the surface of the cylinder?

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Write Gauss's law in equation form for electrostatics and magnetism. What is the difference between them?

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The dimensions of magnetic flux are

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The magnetic flux linked with a closed coil is increased to a maximum value in $2 \,s$ and its relation with time is $\phi = at^2 + bt + c$. Then the relation between $a, b$ and $c$ is:

Assertion $(A)$: Magnetic flux is a vector quantity.Reason $(R)$: Value of magnetic flux can be positive, negative, or zero.

$A$ flux of $1 \ mWb$ passes through a strip having an area $A = 0.02 \ m^2$. The plane of the strip is at an angle of $60^{\circ}$ to the direction of a uniform field $B$. The value of $B$ is

Imagine rolling a sheet of paper into a cylinder and placing a bar magnet near its end as shown in the figure. What can you say about the sign of $\vec B \cdot d\vec A$ for every area element $d\vec A$ on the surface of the cylinder?

Write Gauss's law in equation form for electrostatics and magnetism. What is the difference between them?

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Assertion $(A)$: Magnetic flux is a vector quantity.
Reason $(R)$: Value of magnetic flux can be positive, negative, or zero.